cerebellum vs frontal cortex

[Kayla55]

cerebellum vs frontal cortex and if this is where neurodivergence emerges?

 

[Jumpinbare]

can you elaborate?

 

[SusanLR]

Yes, please elaborate. Neurology is of interest.
The Cerebellum controls the autonomic nervous system and balance of the physical body. The frontal cortex plays a role in emotions, empathy and thought.

 

[Neonatal RRT]

cerebellum vs frontal cortex and if this is where neurodivergence emerges?

Both have their important roles, as does the thalamic regions (the brain's switchboard). In fact, you might even start at some of the areas of the brainstem where serotonin first enters the brain. Serotonin is the primary neurotransmitter for the anterior cingulate cortex, the area that appears to play a primary role in neurodivergence. In the example of autism, it has been found that many autistics have greatly diminished capacity for serotonin binding and transport. In fact, elevated serotonin in the blood, low serotonin in the brain, can be used as a screening tool for autism. The cerebellum also plays a primary role in autism.
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The anterior cingulate cortex (ACC) is a crucial brain region involved in a wide range of cognitive and emotional functions, including attention, conflict monitoring, error detection, and decision-making. It acts as an interface between the limbic system and the prefrontal cortex, facilitating the integration of emotional and cognitive processes.

Key Functions of the ACC:

• Conflict Monitoring and Error Detection:
  The ACC helps detect when there is a mismatch between predicted and actual outcomes, or when there is a conflict between different goals or actions.
  
  
• • Decision-Making and Reward Processing:
    The ACC plays a role in evaluating the value of different options and making decisions, particularly in uncertain or risky situations.
  • Emotional Regulation:
    The ACC helps regulate emotions, including emotional responses to both internal and external stimuli.
  • Attention and Task Preparation:
    The ACC is involved in shifting and maintaining attention, and in preparing for upcoming tasks.
  • Autonomic Nervous System Regulation:
    The ACC helps regulate the autonomic nervous system, which controls bodily functions like heart rate and breathing.
  • Pain Perception:
    The ACC plays a role in processing and modulating pain sensations.

Structure and Location:

• • The ACC is located at the most frontal part of the cingulate cortex, which wraps around the corpus callosum, a bundle of nerve fibers beneath the cerebral cortex.
  • It is adjacent to the frontal lobe and anterior to the posterior cingulate cortex.
  • The ACC is anatomically and functionally divided into different regions, including the dorsal ACC (involved in cognitive processing) and the ventral ACC (involved in emotional processing).

Clinical Relevance:

• • Dysfunction of the ACC has been implicated in various psychiatric disorders, including obsessive-compulsive disorder, anxiety, depression, and post-traumatic stress disorder.
  • Damage to the ACC can lead to a range of deficits, including attention problems, emotional dysregulation, and impaired decision-making.

 

[Neonatal RRT]

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The cerebellum, a brain region crucial for motor control and coordination, also plays a significant role in autism spectrum disorder (ASD). Research suggests that cerebellar abnormalities, including structural and functional changes, are strongly linked to the core symptoms of autism, such as social communication deficits, repetitive behaviors, and motor impairments.

Here's a more detailed look at the cerebellum's role in autism:
1. Cerebellar Structure and Function in ASD:

• Structural Changes:
  Studies using MRI have shown various structural differences in the cerebellum of individuals with ASD, including reduced size of specific regions like the vermis, lobules VI and VII, and decreased cerebellar volume.
  
  
• • Functional Connectivity:
    Functional connectivity studies have revealed atypical patterns of cerebellar connections with other brain regions, particularly those involved in sensory-motor processing, language, and social cognition.
    
  • Molecular Mechanisms:
    Research is also exploring the genetic and molecular mechanisms underlying cerebellar dysfunction in ASD, including the role of specific genes like Chd8 and their impact on cerebellar development and function.
    

2. Cerebellum and ASD Symptoms:

• • Social Communication:
    Dysfunction in the cerebellum, especially in regions involved in theory of mind and social prediction, is linked to social communication difficulties in individuals with ASD.
    
  • Repetitive Behaviors:
    Cerebellar abnormalities may contribute to the repetitive and restrictive behaviors that are a hallmark of autism.
    
  • Motor Impairments:
    Impaired cerebellar function can affect fine motor skills, coordination, and balance, contributing to motor impairments seen in some individuals with ASD.
    

3. Cerebellar Connections and Circuits:

• • Cerebro-cerebellar loops:
    .
    The cerebellum forms multiple loops with cortical regions, including the prefrontal cortex and limbic system, which are crucial for higher-level functions like social processing, language, and cognitive control.
    
  • Sensorimotor networks:
    .
    The cerebellum plays a role in sensory-motor integration and processing, and disruptions in these networks may contribute to sensory sensitivities and motor challenges in autism.
    

4. Implications for Research and Intervention:

• • Targeted Interventions:
    Understanding the specific role of the cerebellum in ASD may lead to the development of targeted interventions aimed at improving cerebellar function and supporting individuals with ASD.
    
  • Early Detection:
    Research suggests that abnormalities in cerebellar development may be present early in life, potentially providing opportunities for early detection and intervention.
    
  • Further Research:
    Continued research is needed to fully elucidate the complex relationship between the cerebellum and autism, including its role in various ASD subtypes and the development of novel therapies.

 

[Kayla55]

Yes, please elaborate. Neurology is of interest.
The Cerebellum controls the autonomic nervous system and balance of the physical body. The frontal cortex plays a role in emotions, empathy and thought.

This is just for us to add trivial persuit knowledge, I suppose understanding of autism was misguided as then we didn't know how the brain works, so these are all medical breakthroughs historically.
But at least if people talk about this we as ASD community do know what it means.

 

[Kayla55]

While the frontal lobe controls movement, the cerebellum “fine-tunes” this movement. This area of the brain is responsible for fine motor movement, balance, and the brain's ability to determine limb position. A stroke in this area of the brain can lead to paralysis or “jerky” muscle movements

The question in my mind is so disability symptoms in autism are due to processing error in cerebellum, but how many of our thoughts/feelings that are divergent stem from the cortex? Obviously autism is defined as neurological disorder in that it is perceived that frontal cortex is responsible for say, behaviour etc. So many times when person has mild brain damage the symptoms present as damage to cortal.

Interesting question on wrong planet, are we neurodivergent and deserve acknowledge parts of ourself in depth of is this just a disability?